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Preparation and biochemical characterization of protease inhibitor equistatin
Polatová, Daniela ; Mareš, Michael (advisor) ; Bořek Dohalská, Lucie (referee)
Equistatin from the sea anemone Actinia equina contains a protein domain Eqd2 which inhibits aspartic peptidases and has not been characterized in detail. Recombinant Eqd2 was produced in the yeast expression system, and a protocol for its chromatographic purification was designed. The inhibitory specificity of Eqd2 was determined using a fluorescence inhibition assay, showing that Eqd2 is a highly selective inhibitor of cathepsin D-like and pepsin-like aspartic peptidases of family A1. Furthermore, size exclusion chromatography was used to analyze the Eqd2-peptidase complex and Eqd2 oligomerization in solution. Initial screening of crystallization conditions for Eqd2 was performed towards its structural analysis. This work provides important new information about Eqd2 as a unique type of natural inhibitors of aspartic peptidases. Its interaction mechanism can be exploited in the development of synthetic mimetics for regulation of medically important peptidases. (In Czech) Key words: peptidase inhibitors, proteolytic enzymes, activity and inhibition of enzymes, recombinant expression, protein purification, protein crystallization, equistatin
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Recombinant preparation of TEAD transcription factor.
Lišková, Růžena ; Novák, Petr (advisor) ; Staněk, Ondřej (referee)
Recombinant preparation of TEAD transcription factor (abstract) The TEAD family transcription factors play an important role during devolopment of organisms, where their main purpose is to regulate organ size by activating expression of proteins involved in cell growth and differentiation and apoptosis inhibition. TEAD proteins activity is regulated by signalling pathways and interactions with coactivators. Disregulation of these mechanisms can lead to development of tumors, which is the reason why TEAD proteins became an interesting target for development of new anticancer drugs based on inhibiting their activity. There are several possibilities how to inhibit activity of a transcription factor including blocking its bond to DNA. To design a new drug that blocks transcription factors binding to DNA the structural basis of interaction of these two molecules has to be known first. In this thesis the DNA binding domain of human protein TEAD1 was prepared using the technique of recombinant expression in bacteria E. coli. Suitable conditions of protein production were found and the DNA binding domain of TEAD1 protein was purified so it will be possible to use it for structural analysis of its intraction with DNA.
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Substrate cleavage by mammalian Dicer isoforms
Kubíková, Jana ; Svoboda, Petr (advisor) ; Pospíšek, Martin (referee)
Host organisms evolved antiviral responses, which can recognize the viral infection and deal with it. One of the frequent signs of viral infection in a cell is appearance of double-stranded RNA (dsRNA). One of the pathways responding to dsRNA is RNA interference (RNAi), which functions as the key antiviral defence system in invertebrates and plants. Mammals, however, utilize for antiviral defence a different dsRNA-sensing pathway called the interferon response. RNAi functions only in mammalian oocytes and early embryonal stages although its enzymatic machinery is present in all somatic cells, where it is employed in the microRNA pathway. A previous study indicated that the functionality of RNAi in mouse oocytes functions due to an oocyte-specific isoform of protein Dicer (DicerO ), which is truncated at the N-terminus. In my thesis, I aimed to assess whether DicerO processes RNAi substrates more efficiently in vitro than the full-length Dicer (DicerS ), which is found in somatic cells. Therefore, I developed Dicer purification protocol for obtaining both recombinant mouse Dicer isoforms of high purity. I examined their activity in a non-radioactive cleavage assay using RNA substrates with structural features characteristic of RNAi substrates. My results suggest that recombinant DicerO and DicerS do not...
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Recombinant expression of chloride channel from E. coliand its structure characterization
Hausner, Jiří ; Man, Petr (advisor) ; Vrbacký, Marek (referee)
Chloride channel family has been shown to play a significant role in physiological homeostasis processes. The function mechanism of these proteins has not yet been clearly understood. Their deficiency or mutation causes serious human illnesses. Our understanding of the chloride channels' transporting mechanisms can lead to better treatment of these illnesses. As mammalian chloride channels are difficult to prepare in laboratory, the experiments are usually done on homologous chloride channels from prokaryotic organisms. The structures of prokaryotic chloride channels have been solved and moreover they are produced with high yields. Most experiments currently use protein crystallography and provide a static picture of the system. This thesis is focused on the study of structural changes of an E. coli chloride channel using hydrogen/deuterium exchange. This method enables us to monitor dynamic conformation changes dependent on pH and exchanged ions. The measurements were done for the protonated (pH 4.5) and deprotonated state (pH 7.5) and/or in the presence of various anions: Cl− , SCN− , I− , F− , TAR. (tartaric anion). The obtained results justified the theories explaining the function of chloride channel as Cl− /H+ antiporter and provided new findings. Subject words biochemistry, protein...
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